DE2262719A1 - PULSE GENERATOR CIRCUIT - Google Patents

Description

The invention relates to a pulse generator circuit and more particularly relates to a circuit used, for example, in the automatic reset circuit of an electronic Desktop calculator is applicable

. Fig. 1 shows an example of a known manner trained pulse generator circuit, as it is in particular in the automatic reset circuit of an electronic Desktop computer is used. This circuit includes a capacitor C1, resistors R1 and R2, a MOS field effect transistor T1, a chase switch Sw1, a reset or reset switch Sw2, an output Oi for issuing a reset or reset signal and a voltage source -VcCl.

If the ^ etζ switch £> w'I is closed in this circuit, at the same time the field effect transistor TI

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put in the power-on state to clear all information entered into the electronic desktop calculator. If then a voltage across the resistor R1 is lower than the threshold voltage of the field effect transistor TI _1, which happens after a certain period of time which is determined by the time constant of the capacitor C1 and the resistor R1, the field effect transistor T1 is switched off or blocked brought. In this way an automatic deletion is effected.

The invention is based on the object of a pulse generator circuit which makes it possible to use a pulse signal that can be used, for example, as a cancel or reset signal to generate as soon as a predetermined period of time has elapsed after closing a power switch, the is also constructed in a simple manner, and which can be produced at low cost.

The invention and advantageous details of the invention are described below with reference to schematic drawings explained in more detail using exemplary embodiments. It shows:

1, as mentioned, shows, as an example, a pulse generator circuit of a known type;

Fig. 2 shows an embodiment of a pulse generator circuit according to the invention;

3a to 3c are graphic representations for explanation the mode of operation of the embodiment of FIG. 2;

4 to 6 three further embodiments of the invention Pulse generator circuits; and

7 shows a specific example in a block diagram for the use of a pulse generator circuit according to the invention with a gate circuit of an electronic desktop computer.

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Ili Pig. 2 to 7 are similar circuit elements or circuit elements fulfilling similar tasks are each designated by the same reference numerals.

For the embodiment shown in FIG Pulse generator circuit includes two bipolar transistors T2 and T3. The collector of transistor T2 is via a Resistor E6 and a power switch Sw2 are connected to a voltage source -Vcc2. The base of transistor T2 is grounded via a capacitor C2 and connected to the mains switch Sw2 via a resistor E3 »The emitter of transistor T3 is grounded, while the collector of this transistor is connected to the emitter of transistor T2 connected is. The base of transistor T3 is over Resistors R5 and E4 grounded. The base of the transistor T3 is also across resistor E5 and a capacitor C3 connected to the power switch Sw2. There is also an output terminal 02 that connects to the collector of the transistor T2 is connected. Furthermore, one recognizes in Fig. 2 a switch Sw3 »which is, for example, a I / Öschschalter acts, and between the 'collector of the Transistor T2 and ground. In the circuit according to FIG. 1, the electrical values of the resistors E3 and E4 as well as of the capacitors C2 and C3 selected so that the circuit in the manner shown in Fig. 3a to 3c is working.

At the point in time to, the movable contact of the mains switch Sw2 is brought into contact with the contact a. The resistor R3 forms a C2-integrating circuit together with the connected with him in Eeihe K _o ligands sator. Immediately after the mains switch Sw2 is closed, the transistor T2 is in the blocking state, since the voltage at the terminals of the capacitor C2 does not immediately rise above the base-earth threshold voltage of the transistor T2. The transistor T3 is brought into the switched-on state in a similar manner. By

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the capacitor CJ flows a base current through the Resistance R5 is limited to a safe value.

After the point in time to, in which the power switch Sw2 has been actuated, the movable contact to the Applying contact a, the capacitor C2 is gradually charged. When finally the terminal voltage of the capacitor C2 exceeds the threshold voltage of transistor T2 at time ti, as shown in FIG. Yes is, the transistor T2 goes into the switched-on state. The capacitor C3 is connected to the resistors K4- and R5 as well as charged by the transistor TJ, the charging r current decreases. The transistor TJ goes into the blocking state at a point in time t2, in which, according to FIG. 3b, the Base-ground voltage of transistor TJ as a result of charging of the capacitor C3 becomes lower than the threshold voltage. Therefore, according to FIG. Jc, both transistors T2 and TJ are in the switched-on state between times ti and t2. As a result, an output signal appears at output terminal 02, which is used, for example, as a cancel signal can be. In the circuit according to FIG. 2, the times ti and t2 can be set as required if the electrical values of the resistors RJ and R4 and the capacitors C2 and CJ are selected accordingly.

After the point in time t2 has been reached, at which the output signal appears at output terminal 02, can this output signal using the switch Sw2 forward as needed.

If the mains switch Sw2 is to be opened, its moving contact can be attached to a contact b causing the capacitors C2 and CJ to discharge. Alternatively, as shown in FIG. 2, a line can be connected between the line connected to the power switch and earth Arrange resistor R7 to connect the capacitors through a Load resistance to discharge.

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Fig. 4 shows a further embodiment of a pulse generator chal device according to the invention. The circuit after. Flg. 4 differs from that according to FIG. 2 in that MOS field effect transistors T2 and T3 used will. Since field-effect transistors have a very high input resistance, this is after the circuit Fig. 2 existing protective resistor R5 not required.

Fig. 5 shows a further embodiment of an inventive Pulse generator circuit which differs from the circuit of Fig. 4- in that an output electrode each of the two MOS field effect transistors 12 and T3 is grounded that the other output electrodes of the two transistors, are interconnected, and that the junction of the two output electrodes is over a resistor E6 and the power switch Sw2 to a Voltage source -Vcc can be connected. The output terminal 02 is connected to the junction of the two transistors. The time constant of capacitor C2 with the resistor R3 is greater than the time constant of the Capacitor CJ with resistor R4 ·. Everyone at the output terminal 02 incoming pulse is equivalent to a pulse that is an inverted pulse of the embodiments according to Fig. 2 and -4- corresponds.

Fig. 6 shows a further embodiment of a pulse generator circuit, which differs from that of FIG. 5 in that it has bipolar transistors T2 and T3 works.

The circuits according to Fig. 4-., 5 and 6 work on similar to the circuit of Fig. 2. In the circuits of Figs. 2 and 4- are both Transistors in the off state first. In contrast to this' are in the circuits according to FIGS. 5 and 6, the both transistors first in the switched-on state.

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Pig. Fig. 7 shows a concrete example in which a pulse generator circuit according to the invention is in connection is used with a gate circuit of an electronic desktop calculator. Referring to Fig. 7, there is a clear signal input terminal CL present, with which the output terminal of one of the pulse generator circuits according to FIGS. 2, 4, 5 or 6 can be connected. The connections for the input keys on the desktop computer are labeled K1, K2, etc. to K4-. The input terminal CL and the input key connections together form an input signal source IS. There are also an OR circuit R1, two flip-flops F1 and F2, an inverter IN and an AND circuit A1. These circuit elements together form a start pulse generator PG. The associated gate circuit G has AND circuits A11 to A15, which emit their output signals via output terminals 011 to 015.

The flip-flops F1 and F2 of the start pulse generator PG are triggered by a word pulse from the computer. As soon as a trigger signal arrives, a signal contained in the flip-flop F1 is input to the flip-flop F2, and signals via the input terminals CL and K1 to K4- have been entered, are in the flip-flop F1 convicted.

If a 1 or 0 signal appears at the outputs of the flip-flops F1 and F2, the start pulse generator opens PG the gates A11 to A15 of the gate circuit G.

In other words, the input signals fed to the input terminals CL and K1 to KH- are transmitted to the output terminals 011 to 015 after they have been set in time and with regard to their period by the word pulses.

The automatically generated cancellation signal shown in Fig. Ja to 3c has the logic value "0" between

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the time of connection of the voltage source and the Point in time ti, and the time interval between these points in time is sufficient to allow flip-flops F1 and F2 to come into action so that it does so automatically generated clear signal sets the flip-flops both to the logic value "0". Between the time ti and the time t2, when at least one word pulse period of the computer has expired when it is reached the clear signal has the logic value "1". According to the point in time t2, the cancel signal again assumes the logic value “0?”

Thus, the logic values represented by the flip-flops F1 and F2 become during the period between the point in time ti and the end of a word pulse period from "0" and "0" to H1 "or" 0 " the gate A11 is opened to transmit the clear signal from the input terminal CL to the output terminal 011. If the clear signal constantly maintains the logic value "1", the flip-flops F1 and F2 during the next Word period brought into the state in which they represent the logical values "1" and "1". Hence, that will Gate A11 closed. If the automatically generated erase signal after time t2 to the logical value "0" goes back, the flip-flops F1 and F2 represent the logical values "0" and "1" or the logical values "0" or "0". As a result, the gate A11 remains closed, and then it is possible in the computer to Carry out the deletion process by pressing the delete key Sw3. ■.

It is true that two series connections are used in the embodiments described above the chase switch Sw2 and earth are connected in parallel, each of which includes a capacitor and a resistor, ren, and in which the circuit elements are opposite are arranged to each other, but is limited

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BATH

Invention, of course, does not rely on such an arrangement.

Furthermore, in the exemplary embodiments described although transistors T2 and TJ are used as switching elements, however, the invention is not limited to this case. For example, one could also use silicon controlled rectifiers use. In the embodiments described, a voltage source -Vcc2 or Vcc is present. Of course, the invention is again not limited to this arrangement, i.e. voltage sources of opposite polarity could also be used. in the In the latter case, it may be necessary, for example, to reverse the polarity of the transistors. Regarding the output signals again the two cases described above.

Within the scope of the invention, the most varied of further modifications can be made in the embodiments described provide.

According to the above description, by the Invention pulse generator circuits have been provided, the advantages of which are that they can be used in a simple manner make it possible to generate a pulse signal at a predetermined point in time after closing a power switch, and that they can be manufactured at low cost.

Expectations

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Claims (3)

EXPECTATIONS" ('Λ.) Pulse generator circuit, characterized by geke η η that circuit elements (C2, R3 or C3, R4) working with certain time constants and two circuits as well as devices for feeding the output signals of the circuit elements to input electrodes of the associated switching elements (T2, TJ) are present, and that with respect to the output signals of the circuit elements operating with certain time constants, points in time are set at which the output signals reach the threshold voltages of the two circuits, which differ from one another, in order to generate a pulse signal which, after connecting the switching operation with certain time constants processing elements to a voltage source (-Vcc2; -Vcc; Vcc) 'maintains its initial state until one of the threshold voltages is reached, und.das a state which differs from the initial state between the point in time at which the first threshold voltage is reached and the time of 'reaching'de r maintains the other threshold voltage and then returns to its initial state * 2. Pulse generator circuit according to claim 1, characterized characterized in that the forming the circuits Switching elements are connected in series (Pig. 2 and ' 3. Pulse generator circuit according to claim 1, characterized characterized that the the circuits forming switching elements are connected in parallel (Fig. 5 and 6). ' 309829/1026